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The Impact of Diet and Lifestyle on Bone Health in the Elderly
A thesis presented in partial fulfillment of the requirements for the degree of
Master of Science
In
Nutritional Science
At Massey University, Turi tea, Palmerston North
New Zealand.
Caroline Morva Stanley
2001
ABSTRACT
Osteoporosis is a multi-factorial disorder in which nutrition and lifestyle play an
important role. There were two main reasons for doing this study. The purpose of the
first part of the study was to determine the prevalence of nutritional and lifestyle factors
related to bone health in a group of senior citizens from the Manawatu who were over
the age of 70 years. This was followed by an intervention trial in which the purpose was
to assess the impact of a single serve of a high-calcium milk on bone resorption using
two ingestion strategies.
Calcium, magnesium and zinc intakes were below currently recommended levels in
many of the study participants. Some of the participants and particularly those in rest
homes received very little sunlight exposure and low dietary vitamin D. Participants
spent an average of around 3.5 hours/day in physical activity. Weight-bearing activities
such as walking, gardening and certain sports were common in this group.
Institutionalised women were most compromised by nutrition and lifestyle. Dietary
supplementation may therefore benefit many in this group.
Of the 52 participants in the diet and lifestyle study, a group of 28 women and 14 men
volunteered to take part in an intervention trial, which was approved by the Massey
University Human Ethics Committee. The mean calcium intake of trial participants was
only 70% of the current US recommended adequate intake (AI). Each person consumed
a supplementary serve of 250mls of high calcium milk (640mg Ca), every evening for
two weeks. Half consumed a whole dose one hour before bedtime (single serve group),
whilst the rest consumed the milk in three divided doses of 80mls every hour before
bedtime (divided dose group). Free deoxypyridinoline (Dpd), a biochemical marker of
bone resorption, was measured in urine that was collected overnight on two consecutive
days before and after two weeks of milk intervention. In the single serve group Dpd
was 4.15 ± 1.99 at the start and 3.94 ± 2.15 mmol/mmol creatinine after two weeks
(NS). In the divided dose group Dpd was 4.25 ± 2.21 at the start and 4.79 ± 2.27
mmol/mmol creatinine after two weeks (NS). In conclusion, a supplementary serve of
milk in this group of elderly people did not produce significant changes in urinary Dpd,
whether the milk was consumed as the whole amount or in divided doses.
11
ACKNOWLEDGEMENTS
Throughout my thesis year I have been fortunate to have had a strong support system.
Firstly, I would like to thank my supervisor, Dr Hilary Green, for her invaluable
guidance and encouragement. I would also like to acknowledge the input of Jillian
Richards, Richard Bunning and Dr Phil Pearce who assisted with the practical aspects
of the trial.
I express my sincere gratitude to the NZ Dairy Board who funded this project and the
Health Research Council who funded the preliminary study of my thesis. I also wish to
express my appreciation to both the Milk and Health and Research Centre and Massey
University from whom I received Masterate scholarships.
I would also like to thank the study participants without whom this thesis project would
not have been possible. The warmth with which they invited Jillian Richards and myself
into their homes and their earnest dedication to the trial was greatly appreciated.
Finally I would like to affectionately thank my fiance, Andre, and my family, whose
love, encouragement and support carried me through the most challenging times of my
postgraduate years.
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TABLE OF CONTENTS
1. LITERATURE REVIEW ----------------- 1
1.1 OSTEOPOROSIS ................................................................................................................................ 1 1.1.l Normal Bone Remodelling ............................................................................................................. 1 1.1.2 Definition and Pathophysiology of Osteoporosis ........................................................................... 2 1.1.3 Epidemiology and Economic Burden .... .... .......... ................. .... .......... ............... ..... ... .. ......... .... .. .... 3 1.1.4 Aetiology .. ............ ..... ........ .... .... ..... ................. ....... ........... ... ...................... .... ......... ...... ....... .. .. .. .... 3
1.1.4.l Age, Sex and Menopausal Status ........................................................................................... 3 1.1.4.2 Ethnicity/ Genetics ................................................................................................................. 4 1.1.4.3 Physical Activity .................................................................................................................... 6 1.1.4.4 Body Weight. .......... ....... ... ..... ... ... .. .. ..... ......... ..... .... .. ......... ... ....... ...... .... .. .. .. ..... ........... ....... .... 7 1.1.4.5 Dietary Factors .......... ............. ........... .... .. ............... ..... .......... ........ .... .. ....... .......... ... ....... ..... .. . 8
1.1.4.5.1 Calcium Intake .... .... ............ .. ..... ................... ..................... .. ...................... ...... .... .... .. ..... 8 1.1.4.5.2 Vitamin D Status ............................................................................................................. 8 1.1.2.5.3 Magnesium and Zinc ........ ... ... .... .... .. .... .. .. .. .... ... ... ..... .......... .. .... .. ......... ..... .......... ......... 10 1.1.4.5.4 Retinal ... .... .. ... ... .. ... ......... ... ... ......... ........ .... ............... .... ... ...... ...................................... 10 1.1.4.5 .5 General Dietary Patterns .. ... ... .. .... ......... ......... .... ....................... .. ...................... ... ... ...... 11
1.1.4.6 Cigarette Smoking, Alcohol Abuse and Caffeine Intake ....... .................. ...................... ... .... 12 1.1.4.7 Summary .............................................................................................................................. 12
1.2 CALCIUM 13 ----------------------------~
1.2.1 Calcium's Role in Bone Physiology 13 1.2.2 The Calcium Requirement 13 1.2.3 Calcium Supplementation and BMD/ Fracture Incidence 15 1.2.4 Milk and Bone Health 18 1.2.5. Calcium Absorption 19
1.2.5.1. Physiology of Calcium Absorption and the Role of Vitamin D 19 1.2.5.2 Dividing the Supplementary Dose 20 1.2.5.3 Evening Supplementation 21 1.2.5.4 Nutritional Factors Which Affect Calcium Absorption and Excretion 22
1.2.5.4.1 Milk Oligosaccharides 22 1.2.5.4.2 Sodium Intake 22 1.2.5.4.3 Protein Intake 22
1.2.6 Summary 23
1.3 DIETARY INTAKE OF THE ELDERLY 24 -----------------~ 1.3.1 Special Dietary Needs of the Elderly Concerning Bone Health 24
1.3.1.1 Energy Intake 24 1.3.1.2 Calcium 24 1.3.1.3 Vitamin D 24 1.3.1.4 Other Factors which affect Nutrient Intake in the elderly 25
1.3.2 Habitual Dietary Intake of Elderly New Zealanders 26
IV
1.3.2.l Habitual Intake of Calcium 26 1.3.2.2. Habitual Intake of Other Nutrients Important in Bone Health 28
1.3.3 Summary 29
1.4 PHYSICAL ACTIVITY IN THE ELDERLY 31 1.4.l Benefits of Physical Activity in the Elderly 31 1.4.2 Habitual Physical Activity of New Zealand Elderly 31 1.4.3 Summary 33
1.5 BIOCHEMICAL MARKERS IN THE ASSESSMENT OF BONE TURNOVER 34 1.5.l Introduction to Biochemical Markers of Bone Resorption 34 1.5.2 Pyridinium Cross-links 36
1.5.2.1 Biochemical Background of Pyridinium Cross-links 36 1.5.2.2 Pyridinium Cross-links as Bone Markers 37 1.5.2.3 Relationship of Pyridinium Cross-links to Age, Gender, Menopausal Status and in Osteoporosis 38
1.5.3 Biochemical Markers in Calcium Supplementation Trials 39
1.5.3 Summary _____________ ______________ 42
2. STUDY TO EVALUATE DIETARY AND LIFESTYLE FACTORS IN A GROUP OF ELDERLY 43
2.l
2.2 METHODS ________________________ 43 2.2.1 Recruitment/ Anthropometric Measurements 43
2.2.l.1 Participant Recruitment 43 2.2.l.2 Introduction to /Explanation of Study 44 2.2.1.3 Anthropometric Measures 44
2.2.2 Dietary Assessment Methods 45 2.2.3 Assessment of Physical Activity and Lifestyle 45
2.3 RESULTS ----------------------- --46 2.3.1 Recruitment/ Anthropometric Measurements 46 2.3.2 Dietary Assessment 48
2.3.2.1 Energy and Metabolic Measurements 48 2.3.2.2 Dietary Intake 49
2.3.2.2.1 Nutrients Related to Bone Health 49 2.3.2.2.2 Solar and Dietary Sources of Vitamin D 52
2.3.3 Physical Activity Patterns 54
2.4 DISCUSSION _______________________ 55 2.4.1 Recruitment/Anthropometric Measurements 55
2.4.l.1 Recruitment of Participants 55 2.4.l.2 Anthropometric Measurements 56
2.4.2 Dietary Assessment 57 2.4.2.l Energy and Metabolic Measurements 57 2.4.2.2 Dietary Intake 58
2.4.2.2.l Nutrients Related to Bone Health 58 2.4.2.2.2 Solar and Dietary Sources of Vitamin D 60
2.4.3 Physical Activity and Lifestyle Patterns 60
2.5 Conclusions/Summary 63 ~----------------------
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3. THE EFFECT OF MILK ON BONE RESORPTION USING TWO INGESTION STRATEGIES ________________ 64
3.1
3.2 INTERVENTION TRIAL METHODS ________________ 64 3.2.2 Milk composition 64 3.2 .3 Drinking schedule 65 3.2.4 Collection and Storage 65 3.2.5 Deoxypyridinoline Analysis 66 3.2.6 Calcium Analysis 66 3.2 .7 Creatinine Analysis 67 3.2.8 Data Analysis 67
3.3 RES UL TS OF THE INTERVENTION TRIAL _____________ 67 3 .3 .1 Anthropometric, Nutritional and Lifestyle Measurements of Intervention Trial Participants 67 3.3.2 Compliance 69 3.3.3 Dpd Analysis 70 3.3.4 Urinary Calcium Analysis 71 3.3.5 Creatinine Analysis 72
3.4 DISCUSSION ________________________ 72 3.4 .1 Anthropometric, Nutritional and Physical Activity Data for Trial Groups 72 3.4 .2 Compliance 72 3.4.3 Discussion of DPD Data 73 3.4.3 Discussion of Calcium Data 75 3.4.4 Creatinine Data 75
3.5 Conclusions/Summary ______________________ 75
CHAPTER 4: CONCLUSIONS AND FUTURE WORK 77 ----------4.1 DIETARY AND LIFESTLYE PATTERNS RELATED TO BONE HEALTH 77 ------
4.2 EFFECT OF MILK ON BONE RESORPTION USING TWO INGESTION STRATEGIES_78
APPENDIX I: The Zutphen Modified Physical Activity Questionnaire 102 ---------------------------
APPENDIX II: Diet and Lifestyle Factors which Contribute to Bone Health_lOS
APPENDIX III: Consent Form 107 --------------------
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LIST OF FIGURES
FIGURE TITLE PAGE
1.1 The Bone Remodelling Cycle 1
1.2 The Effect of Calcium Load on Absorption Fraction 2
1.3 Diagram of Collagen showing the pyridinium crosslinks 36 between adjacent collagen fibres.
2.1 Energy lntake/BMR for Women Participants 49
2.2 Energy lntake/BMR for Men Participants 49
2.3 Micronutrient Intakes of Men and Women Participants 50
2.4 Calcium Intakes of All Participants 52
2.5 Protein Intake of All Participants 53
2.6 The Effect of Age on Protein Intake of Women 53
2.7 Dai ly Sunlight Exposure for All Participants 54
2.8 Vitamin D Intake of All Participants 55
2.9 Time Spent in the Three Intensities of Physical Activity 54
2.10 Time Spent in Various Physical Activities 55
3.1 Drinking Schedule for Two Week Intervention 65
3.2 Dpd Data for Trial Groups 70
3.3 The Effect of Age on Baseline Dpd:Cm 71
3.4 Calcium Data For Trial Groups 71
3.5 Creatinine Excretion Rate for Each of the Four Collections 72
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LIST OF TABLES
TABLE TITLE PAGE
1.1 Calcium Supplementation and BMD/Fracture Incidence 17
1.2 Calcium supplementation Trials using Vitamin D 18
1.3 Studies Measuring the Calcium Intake of Elderly New 27 Zealanders' in the Last 10 years
1.4 Calcium Supplementation and Biochemical Markers 40
2.1 Recruited Participants 46
2.2 Anthropometric Measurements of All Study Participants 47
2.3 Anthropometric Measurements of Women Participants 47 According to Living Situation
2.4 Energy and Metabolic Measurements for all Participants 48
3.1 Micronutrient Composition of Milk Supplement (mg/50g of 64 milk powder or 250mls of made up milk)
3.2 Concentration of Reactants in Reagents 66
3.3 Anthropometric Measurements for Single and Divided Dose 68 Groups
3.4 Energy and Metabolic Measurements for Single and Divided 68 Dose Groups
Nutritional and Lifestyle Measurements for Single and Divided 3.5 Dose Groups 69
3.6 Participant Compliance to Drinking Schedule 69
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ADI
AI
AM
B-ALP
BMD
B-SP
Ca2+ or Ca
CTx
d
Dpd
EAR
FFQ
Hr
HRT
HYP
IU
M
MoH
MP
mths
NIH
NM
NTx
Oen
PM
PostM
PreM
Pyd
R
RDA
LIST OF ABBREVIATIONS
Average daily intake
Adequate intake
Morning
Bone Alkaline Phosphatase
Bone mineral density
Bone sialoprotein
Calcium
C-telopeptide
Day
Deoxypyridinoline
Estimated average requirement
Food frequency questionnaire
Hour
Hormone Replacement Therapy
Hydroxyproline
International units
Men
Ministry of Health
Menopausal
Months
National Institute of Health
Not mentioned
N-telopeptide
Osteocalcin
Evening
Postmenopausal
Premenopausal
Pyridinoline
Range
Recommended daily allowance
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